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20 results on '"Kini, Lohith G."'

1. The sensitivity of network statistics to incomplete electrode sampling on intracranial EEG

Author

Conrad, Erin C., Bernabei, John M., Kini, Lohith G., Shah, Preya, Mikhail, Fadi, Kheder, Ammar, Shinohara, Russell T., Davis, Kathryn A., Bassett, Danielle S., and Litt, Brian

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Network neuroscience applied to epilepsy holds promise to map pathological networks, localize seizure generators, and inform targeted interventions to control seizures. However, incomplete sampling of the epileptic brain because of sparse placement of intracranial electrodes may affect model results. In this study, we evaluate the sensitivity of several published network measures to incomplete spatial sampling and propose an algorithm using network subsampling to determine confidence in model results. We retrospectively evaluated intracranial EEG data from 28 patients implanted with grid, strip, and depth electrodes during evaluation for epilepsy surgery. We recalculated global and local network metrics after randomly and systematically removing subsets of intracranial EEG electrode contacts. We found that sensitivity to incomplete sampling varied significantly across network metrics. This sensitivity was largely independent of whether seizure onset zone contacts were targeted or spared from removal. We present an algorithm using random subsampling to compute patient-specific confidence intervals for network localizations. Our findings highlight the difference in robustness between commonly used network metrics and provide tools to assess confidence in intracranial network localization. We present these techniques as an important step toward translating personalized network models of seizures into rigorous, quantitative approaches to invasive therapy.

Published
2020
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2. Virtual resection predicts surgical outcome for drug-resistant epilepsy.

Author

Kini, Lohith G, Bernabei, John M, Mikhail, Fadi, Hadar, Peter, Shah, Preya, Khambhati, Ankit N, Oechsel, Kelly, Archer, Ryan, Boccanfuso, Jacqueline, Conrad, Erin, Shinohara, Russell T, Stein, Joel M, Das, Sandhitsu, Kheder, Ammar, Lucas, Timothy H, Davis, Kathryn A, Bassett, Danielle S, and Litt, Brian

Subjects
Patient Safety, Epilepsy, Brain Disorders, Neurosciences, Bioengineering, Neurodegenerative, Clinical Research, 4.1 Discovery and preclinical testing of markers and technologies, 2.1 Biological and endogenous factors, Detection, screening and diagnosis, Aetiology, Neurological, Adolescent, Adult, Brain, Drug Resistant Epilepsy, Electrocorticography, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Neuroimaging, Neurosurgical Procedures, Prognosis, Retrospective Studies, Treatment Outcome, seizures, electrocorticography, epilepsy surgery, network neuroscience, functional connectivity, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery
Abstract

Patients with drug-resistant epilepsy often require surgery to become seizure-free. While laser ablation and implantable stimulation devices have lowered the morbidity of these procedures, seizure-free rates have not dramatically improved, particularly for patients without focal lesions. This is in part because it is often unclear where to intervene in these cases. To address this clinical need, several research groups have published methods to map epileptic networks but applying them to improve patient care remains a challenge. In this study we advance clinical translation of these methods by: (i) presenting and sharing a robust pipeline to rigorously quantify the boundaries of the resection zone and determining which intracranial EEG electrodes lie within it; (ii) validating a brain network model on a retrospective cohort of 28 patients with drug-resistant epilepsy implanted with intracranial electrodes prior to surgical resection; and (iii) sharing all neuroimaging, annotated electrophysiology, and clinical metadata to facilitate future collaboration. Our network methods accurately forecast whether patients are likely to benefit from surgical intervention based on synchronizability of intracranial EEG (area under the receiver operating characteristic curve of 0.89) and provide novel information that traditional electrographic features do not. We further report that removing synchronizing brain regions is associated with improved clinical outcome, and postulate that sparing desynchronizing regions may further be beneficial. Our findings suggest that data-driven network-based methods can identify patients likely to benefit from resective or ablative therapy, and perhaps prevent invasive interventions in those unlikely to do so.

Published
2019

7. Volumetric glutamate imaging (GluCEST) using 7T MRI can lateralize nonlesional temporal lobe epilepsy: A preliminary study

Author

Hadar, Peter N., primary, Kini, Lohith G., additional, Nanga, Ravi Prakash Reddy, additional, Shinohara, Russell T., additional, Chen, Stephanie H., additional, Shah, Preya, additional, Wisse, Laura E. M., additional, Elliott, Mark A., additional, Hariharan, Hari, additional, Reddy, Ravinder, additional, Detre, John A., additional, Stein, Joel M., additional, Das, Sandhitsu, additional, and Davis, Kathryn A., additional

Published
2021
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8. Electrocorticography and stereo EEG provide distinct measures of brain connectivity: implications for network models

Author

Bernabei, John M, primary, Arnold, T Campbell, additional, Shah, Preya, additional, Revell, Andrew, additional, Ong, Ian Z, additional, Kini, Lohith G, additional, Stein, Joel M, additional, Shinohara, Russell T, additional, Lucas, Timothy H, additional, Davis, Kathryn A, additional, Bassett, Danielle S, additional, and Litt, Brian, additional

Published
2021
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9. Electrocorticography and stereo EEG provide distinct measures of brain connectivity: Implications for network models

Author

Bernabei, John M., primary, Arnold, T. Campbell, additional, Shah, Preya, additional, Revell, Andrew, additional, Ong, Ian Z., additional, Kini, Lohith G., additional, Stein, Joel M., additional, Shinohara, Russell T., additional, Lucas, Timothy H., additional, Davis, Kathryn A., additional, Bassett, Danielle S., additional, and Litt, Brian, additional

Published
2020
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11. How sensitive is functional connectivity to electrode resampling on intracranial EEG? Implications for personalized network models in drug-resistant epilepsy

Author

Conrad, Erin C., primary, Bernabei, John M., additional, Kini, Lohith G., additional, Shah, Preya, additional, Mikhail, Fadi, additional, Kheder, Ammar, additional, Shinohara, Russell T., additional, Davis, Kathryn A., additional, Bassett, Danielle S., additional, and Litt, Brian, additional

Published
2019
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12. Association of Piriform Cortex Resection With Surgical Outcomes in Patients With Temporal Lobe Epilepsy

Author

Galovic, Marian, primary, Baudracco, Irene, additional, Wright-Goff, Evan, additional, Pillajo, Galo, additional, Nachev, Parashkev, additional, Wandschneider, Britta, additional, Woermann, Friedrich, additional, Thompson, Pamela, additional, Baxendale, Sallie, additional, McEvoy, Andrew W., additional, Nowell, Mark, additional, Mancini, Matteo, additional, Vos, Sjoerd B., additional, Winston, Gavin P., additional, Sparks, Rachel, additional, Prados, Ferran, additional, Miserocchi, Anna, additional, de Tisi, Jane, additional, Van Graan, Louis André, additional, Rodionov, Roman, additional, Wu, Chengyuan, additional, Alizadeh, Mahdi, additional, Kozlowski, Lauren, additional, Sharan, Ashwini D., additional, Kini, Lohith G., additional, Davis, Kathryn A., additional, Litt, Brian, additional, Ourselin, Sebastien, additional, Moshé, Solomon L., additional, Sander, Josemir W. A., additional, Löscher, Wolfgang, additional, Duncan, John S., additional, and Koepp, Matthias J., additional

Published
2019
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13. High interictal connectivity within the resection zone is associated with favorable post-surgical outcomes in focal epilepsy patients

Author

Shah, Preya, primary, Bernabei, John M., additional, Kini, Lohith G., additional, Ashourvan, Arian, additional, Boccanfuso, Jacqueline, additional, Archer, Ryan, additional, Oechsel, Kelly, additional, Das, Sandhitsu R., additional, Stein, Joel M., additional, Lucas, Timothy H., additional, Bassett, Danielle S., additional, Davis, Kathryn A., additional, and Litt, Brian, additional

Published
2019
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18. Mutator/Hypermutable Fetal/Juvenile Metakaryotic Stem Cells and Human Colorectal Carcinogenesis

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Kini, Lohith G., Kamath, Tushar V., Koledova, Vera V., Gostjeva, Elena V., Thilly, William G., Herrero-Jimenez, Pablo, Sanghvi, Jayodita, Gutierrez, Efren, Kusko, Rebecca, Rexer, Karl, Kurzweil, Ray, Refinetti, Paulo, Morgenthaler, Stephan, Hensle, David, 1981, Kogel, John, 1981, Koledova, Vera V, Thilly, William G, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Kini, Lohith G., Kamath, Tushar V., Koledova, Vera V., Gostjeva, Elena V., Thilly, William G., Herrero-Jimenez, Pablo, Sanghvi, Jayodita, Gutierrez, Efren, Kusko, Rebecca, Rexer, Karl, Kurzweil, Ray, Refinetti, Paulo, Morgenthaler, Stephan, Hensle, David, 1981, Kogel, John, 1981, Koledova, Vera V, and Thilly, William G

Abstract

Adult age-specific colorectal cancer incidence rates increase exponentially from maturity, reach a maximum, then decline in extreme old age. Armitage and Doll (1) postulated that the exponential increase resulted from “n” mutations occurring throughout adult life in normal “cells at risk” that initiated the growth of a preneoplastic colony in which subsequent “m” mutations promoted one of the preneoplastic “cells at risk” to form a lethal neoplasia. We have reported cytologic evidence that these “cells at risk” are fetal/juvenile organogenic, then preneoplastic metakaryotic stem cells. Metakaryotic cells display stem-like behaviors of both symmetric and asymmetric nuclear divisions and peculiarities such as bell shaped nuclei and amitotic nuclear fission that distinguish them from embryonic, eukaryotic stem cells. Analyses of mutant colony sizes and numbers in adult lung epithelia supported the inferences that the metakaryotic organogenic stem cells are constitutively mutator/hypermutable and that their contributions to cancer initiation are limited to the fetal/juvenile period. We have amended the two-stage model of Armitage and Doll and incorporated these several inferences in a computer program CancerFit v.5.0. We compared the expectations of the amended model to adult (15–104 years) age-specific colon cancer rates for European-American males born 1890–99 and observed remarkable concordance. When estimates of normal colonic fetal/juvenile APC and OAT gene mutation rates (∼2–5 × 10[superscript −5] per stem cell doubling) and preneoplastic colonic gene loss rates (∼8 × 10[superscript −3]) were applied, the model was in accordance only for the values of n = 2 and m = 4 or 5., United Therapeutics Corporation

Published
2014

19. Mutator/Hypermutable Fetal/Juvenile Metakaryotic Stem Cells and Human Colorectal Carcinogenesis

Author

Kini, Lohith G., primary, Herrero-Jimenez, Pablo, additional, Kamath, Tushar, additional, Sanghvi, Jayodita, additional, Gutierrez, Efren, additional, Hensle, David, additional, Kogel, John, additional, Kusko, Rebecca, additional, Rexer, Karl, additional, Kurzweil, Ray, additional, Refinetti, Paulo, additional, Morgenthaler, Stephan, additional, Koledova, Vera V., additional, Gostjeva, Elena V., additional, and Thilly, William G., additional

Published
2013
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20. Mutator/hypermutable fetal/juvenile metakaryotic stem cells and human colorectal carcinogenesis

Author

Lohith G. Kini, Pablo eHerrero-Jimenez, Emma E. Furth, Tushar eKamath, Jayodita eSanghvi, Efren eGutierrez, David eHensle, John eKogel, Rebecca eKusko, Karl eRexer, Ray eKurzweil, Paulo eRefinetti, Stephan eMorgenthaler, Vera V. Koledova, Elena V. Gostjeva, William G. Thilly, Massachusetts Institute of Technology. Department of Biological Engineering, Massachusetts Institute of Technology. Department of Biology, Kini, Lohith G., Kamath, Tushar V., Koledova, Vera V., Gostjeva, Elena V., and Thilly, William G.

Subjects
Cancer Research, Fetus, Pathology, medicine.medical_specialty, Colorectal cancer, Stem Cells, Cancer, Biology, Gene mutation, medicine.disease, cancer model, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Embryonic stem cell, lcsh:RC254-282, metakaryotic, Andrology, Mutator, Oncology, Hypothesis and Theory, medicine, Juvenile, hypermutable, Stem cell, Gene
Abstract

Adult age-specific colorectal cancer incidence rates increase exponentially from maturity, reach a maximum, then decline in extreme old age. Armitage and Doll (1) postulated that the exponential increase resulted from “n” mutations occurring throughout adult life in normal “cells at risk” that initiated the growth of a preneoplastic colony in which subsequent “m” mutations promoted one of the preneoplastic “cells at risk” to form a lethal neoplasia. We have reported cytologic evidence that these “cells at risk” are fetal/juvenile organogenic, then preneoplastic metakaryotic stem cells. Metakaryotic cells display stem-like behaviors of both symmetric and asymmetric nuclear divisions and peculiarities such as bell shaped nuclei and amitotic nuclear fission that distinguish them from embryonic, eukaryotic stem cells. Analyses of mutant colony sizes and numbers in adult lung epithelia supported the inferences that the metakaryotic organogenic stem cells are constitutively mutator/hypermutable and that their contributions to cancer initiation are limited to the fetal/juvenile period. We have amended the two-stage model of Armitage and Doll and incorporated these several inferences in a computer program CancerFit v.5.0. We compared the expectations of the amended model to adult (15–104 years) age-specific colon cancer rates for European-American males born 1890–99 and observed remarkable concordance. When estimates of normal colonic fetal/juvenile APC and OAT gene mutation rates (∼2–5 × 10[superscript −5] per stem cell doubling) and preneoplastic colonic gene loss rates (∼8 × 10[superscript −3]) were applied, the model was in accordance only for the values of n = 2 and m = 4 or 5., United Therapeutics Corporation

Published
2013

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